An entropy measure for power estimation of Boolean functions

Author

Hwang, Chi-Hong ; Wu, Allen C H

Author_Institution

Dept. of Comput. Sci., Tsinghua Univ., Beijing, China

fYear

1997

fDate

28-31 Jan 1997

Firstpage

101

Lastpage

106

Abstract

In this paper, we present a study on the relationship between entropy and the average power consumption, of circuits generated from Boolean functions. Based on a general-delay model, an entropy-based formulation for power estimation is derived from a large set of experimental data. The study shows that the entropy measure provides an effective power estimate for single-output and fully-correlated multiple-output functions. The study also shows that if entropy is used as a power measure, the internal structure of a circuit must be considered in order to achieve accurate power estimates for non-correlated multiple-output functions. Experiments on a set of benchmarks demonstrate that combining entropy-based power measures with input-output correlation analyses of logic functions leads to a viable measure for high-level power estimation

Keywords

Boolean functions; VLSI; correlation methods; delays; entropy; integrated logic circuits; logic partitioning; power consumption; Boolean functions; average power consumption; entropy measure; entropy-based formulation; fully-correlated multiple-output functions; general-delay model; input-output correlation analyses; logic functions; partitioning method; power estimation; single-output functions; Area measurement; Boolean functions; Computer science; Density measurement; Energy consumption; Entropy; Logic functions; Power measurement; Switching circuits; Very large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference, 1997. Proceedings of the ASP-DAC '97 Asia and South Pacific

Conference_Location

Chiba

Print_ISBN

0-7803-3662-3

Type

conf

DOI

10.1109/ASPDAC.1997.600067

Filename

600067